We present THC: a new high-order flux-vector-splitting code for Newtonian and special-relativistic hydrodynamics designed for direct numerical simulations of turbulent flows. Our code implements a variety of different reconstruction algorithms, such as the popular weighted essentially non oscillatory and monotonicity-preserving schemes, or the more specialised bandwidth-optimised WENO scheme that has been specifically designed for the study of compressible turbulence. We show the first systematic comparison of these schemes in Newtonian physics as well as for special-relativistic flows. In particular we will present the results obtained in simulations of grid-ali...
Computation of flow through shock waves was extremely difficult to handle, as shocks present sharp c...
International audienceHigh-speed turbulent flows are encountered in most space-related applications ...
Abstract We construct a new relativistic viscous hydrodynamics code optimized in the Milne coordinat...
We present THC: a new high-order flux-vector-splitting code for Newtonian and special-rela...
We present THC: a new high-order flux-vector-splitting code for Newtonian and special-relativistic h...
We have proposed a new High Resolution Shock Capturing (HRSC) scheme for Special Relativistic Hydrod...
This work assesses the dissipative properties of high-order numerical methods for relativistic hydro...
In an attempt to investigate the structures of ultra-relativistic jets injected into the intracluste...
In a series of papers, Olsson (1994, 1995), Olsson & Oliger (1994), Strand (1994), Gerritsen &am...
In a series of papers, Olsson (1994, 1995), Olsson & Oliger (1994), Strand (1994), Gerritsen Olsson ...
This paper describes a multidimensional hydrodynamic code which can be used for studies of relativis...
Two families of explicit and implicit compact high-resolution shock- capturing methods for the multi...
Relativistic jets are frequently involved in high-energy astrophysics phenomena, including pulsar wi...
We construct a new Godunov type relativistic hydrodynamics code in Milne coordinates, using a Rieman...
A high order particle-source-in-cell (PSIC) algorithm is presented for the computation of the intera...
Computation of flow through shock waves was extremely difficult to handle, as shocks present sharp c...
International audienceHigh-speed turbulent flows are encountered in most space-related applications ...
Abstract We construct a new relativistic viscous hydrodynamics code optimized in the Milne coordinat...
We present THC: a new high-order flux-vector-splitting code for Newtonian and special-rela...
We present THC: a new high-order flux-vector-splitting code for Newtonian and special-relativistic h...
We have proposed a new High Resolution Shock Capturing (HRSC) scheme for Special Relativistic Hydrod...
This work assesses the dissipative properties of high-order numerical methods for relativistic hydro...
In an attempt to investigate the structures of ultra-relativistic jets injected into the intracluste...
In a series of papers, Olsson (1994, 1995), Olsson & Oliger (1994), Strand (1994), Gerritsen &am...
In a series of papers, Olsson (1994, 1995), Olsson & Oliger (1994), Strand (1994), Gerritsen Olsson ...
This paper describes a multidimensional hydrodynamic code which can be used for studies of relativis...
Two families of explicit and implicit compact high-resolution shock- capturing methods for the multi...
Relativistic jets are frequently involved in high-energy astrophysics phenomena, including pulsar wi...
We construct a new Godunov type relativistic hydrodynamics code in Milne coordinates, using a Rieman...
A high order particle-source-in-cell (PSIC) algorithm is presented for the computation of the intera...
Computation of flow through shock waves was extremely difficult to handle, as shocks present sharp c...
International audienceHigh-speed turbulent flows are encountered in most space-related applications ...
Abstract We construct a new relativistic viscous hydrodynamics code optimized in the Milne coordinat...